Loosening is concerned to be the major cause of revision in the artificial prosthesis. Wear debris of UHMWPE dispersed into the implant-bone interface are phagocytosed by macrophages releasing inflammatory cytokines such as TNF-α which leads to osteolysis and loosening eventually. It is known that the size and structure [1] as well as attached substances on particle surface such as endotoxin could affect the amount of cytokines released [2]. An We cultured mouse macrophage cell line RAW 264 with spherical UHMWPE particles (8.7µm and 23µm diameter in average, Mitsui chemicals Co., LTD.) and LDPE particles (3.6µm and 5.8µm diameter in average, Sumitomo Seika Chemicals Co., LTD.) using the Inverse Culture Method for 24 hours before estimating the TNF-α generation by TNF- ALPHA QUANTIKINE ELISA KIT (R&D). Spherical UHMWPE particles (10µm diameter in average, Mitsui chemicals Co., LTD.) with E.coli original LPS (Enzo Life Sciences) attached to them were incubated with cells to see the effects of LPS on the bio-reactivity tests.INTRODUCTION
MATERIALS AND METHODS
Ultra-High Molecular Weight Polyethylene (UHMWPE) wear debris is thought to be a main factor in the development of osteolysis (1). However, the method for the evaluation of the biological response to UHMWPE particles has not yet been standardized. In this study, four different types of UHMWPE particles were generated using a mechanized pulverizing method and the biological responses of macrophages to the particles were investigated using an inverted cell culturing process (2). Virgin samples were manufactured via Direct Compression Molding (DCM) technique from UHMWPE GUR1050 resin powder (Ticona, USA). For vitamin E (VE)-blended sample, the resin was mixed with VE at 0.3 wt% and the mixture was then molded using DCM. The crosslinked virgin samples were made by gamma ray irradiation to UHMWPE GUR1020 resin sheet (Meditech, USA) with doses of 95kGy ±10% and annealed. The VE-blended crosslinked samples were made by electron beam irradiation to VE-blended samples with doses of 300kGy and annealed. The material conditions were summarized in Figure 1. To pulverize the samples, the Multi-Beads Shocker (Yasui Kikai, Japan) was used. After pulverization, samples were dispersed in an ethanol solution and sequentially filtered through polycarbonate filters. Over 100 sections of the filter were selected randomly and images of the particles were analyzed using scanning electron microscope (SEM). To analyze the macrophage biological response, an inverted cell culturing process was used (2). The mouse macrophage-like cells were seeded at densities of 4×105cells per well in a 96-well culture plate and incubated for 1h. UHMWPE particles suspended in the culture medium were then added to each well in the appropriate amount. After that, fresh medium was added to fill the wells, and a sealing film was used to cover the culture plate. The culture plate was then inverted to cause the UHMWPE particles interact with the adhered macrophages. The inverted culture plate was incubated for 8h. The amount of TNF-α was measured by enzyme-linked immunosorbent assay (ELISA).INTRODUCTION
MATERIALS & METHODS